CN218281042U

CN218281042U - Dust removal pipeline airflow distributor

Info

Publication number: CN218281042U
Application number: CN202221909622.2U
Authority: CN
Inventors: 王钧祥; 韩烨; 张民强; 段志钢; 董良华; 李文波; 刘文良; 张兴聚; 章达懿; 丁佳敏; 陶鑫江; 丁超; 孙丹娜; 丁忠良
Original assignee: Cangzhou China Railway Equipment Manufacturing Materials Co Ltd
Current assignee: Cangzhou China Railway Equipment Manufacturing Materials Co Ltd
Priority date: 2022-07-25
Filing date: 2022-07-25
Publication date: 2023-01-13
Anticipated expiration: 2032-07-25

Abstract

The utility model discloses a dust removal pipeline air current distributor, advance the pipe including square waste gas, square waste gas advances the bottom detachable of pipe and is provided with square shunt tubes, and the intraductal even four vertical shunting chambeies that are provided with of square shunt tubes, four vertical shunting chambeies are connected with first shunt tubes structure, second shunt tubes structure, third shunt tubes structure and fourth shunt tubes structure respectively. The utility model discloses can make during waste gas non-resistance and even entering into every vertical reposition of redundant personnel chamber, and subsequent first reposition of redundant personnel structure, the second reposition of redundant personnel structure, the waste gas of third reposition of redundant personnel structure and fourth reposition of redundant personnel structure is the square structure unanimous with the cross section in vertical reposition of redundant personnel chamber through the cross-section, can be so that waste gas at the in-process of reposition of redundant personnel transport, can hardly realize direct striking with the pipe wall, but can realize the reposition of redundant personnel and turn to under the guide of pipeline, the speed loss of waste gas in transportation process has been reduced, do benefit to the filtration of follow-up sack cleaner.

Description

Dust removal pipeline airflow distributor

Technical Field

The utility model relates to a dust remover pipeline technical field especially relates to a dust removal pipeline air current distributor.

Background

The bag-type dust collector is a dry dust filter, it is suitable for catching the tiny, dry, non-fibrous dust, the main working principle of the bag-type dust collector is to introduce the dust-containing gas into the bag-type dust collector box through the air inlet, the dust-containing gas moves to the filter bag, the dust gas is absorbed on the filter bag, the gas is discharged from the air outlet after purifying, thus achieve the effect of purifying the end gas, for the enterprise with smaller scale, its productivity is smaller, the exhaust emission is smaller, so often only need one or several bag-type dust collectors to meet the use need, the bag-type dust collectors are connected by the conventional pipeline structure, for the enterprise with larger scale, its exhaust emission is much larger, in order to meet the filtering requirement of the end gas, need to set up a large number of bag-type dust collectors at the same time, and in order to guarantee the operational consistency of each bag-type dust collector, need to design the unique pipeline structure specially, so that the exhaust inflow of each bag-type dust collector will not have obvious difference, it is convenient to manage, a pipeline structure of existing as shown in figure 1-2, it includes the total exhaust gas inflow pipe 1-1 and 1-2 set up the sum of the exhaust gas of the flow dividing pipe 1-2, when the partial exhaust gas will be more than the total exhaust gas of the vertical dividing pipe 1-2, the total exhaust gas will be through the total exhaust gas 1-2, the total exhaust gas inflow pipe 1-2, the total exhaust gas-1-2, then, the waste gas enters the waste gas shunt pipe 1-2, so that at the inlet of the waste gas shunt pipe 1-2, two kinds of air flows generate mutual interference, the speed of the waste gas entering the waste gas shunt pipe can be obviously reduced, the speed of the waste gas entering the bag-type dust collector subsequently is further influenced, the filtering effect of the bag-type dust collector is adversely affected, and therefore a more reasonable air flow distribution structure needs to be developed urgently.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to avoid prior art's weak point, provide a dust removal pipeline air current distributor to effectively solve the weak point that exists among the prior art.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a dust removal pipeline air current distributor, advance the pipe including square waste gas, square waste gas advances the bottom detachable of pipe and is provided with square shunt tubes, square shunt tubes is interior even is provided with four vertical shunting chambeies, four vertical shunting chambeies are connected with first shunt tubes structure respectively, the second shunt tubes structure, third shunt tubes structure and fourth shunt tubes structure, first shunt tubes structure, the second shunt tubes structure, the export of third shunt tubes structure and fourth shunt tubes structure all sets up along the horizontal direction, and first shunt tubes structure, the second shunt tubes structure, the waste gas of third shunt tubes structure and fourth shunt tubes structure is the square structure unanimous with the cross section in vertical shunt tubes cavity through the cross-section.

Further, the top of square waste gas advances the pipe is provided with first flange board.

Further, the bottom that square waste gas advances the pipe is provided with the second flange board, and the top of square shunt tubes is provided with the third flange board, the third flange board pass through bolt assembly with the second flange board is connected.

Furthermore, a cross partition plate is arranged in the square flow dividing pipe, and separates the inner cavity of the square flow dividing pipe into four vertical flow dividing cavities.

Further, first shunt tube structure, second shunt tube structure, third shunt tube structure and fourth shunt tube structure all include vertical bent pipe portion, horizontal pipe portion and the horizontal bent pipe portion that connects gradually, the tip of horizontal bent pipe portion is provided with the third flange board.

Further, first shunt tubes structure and second shunt tubes structure are located the left side of square shunt tubes, and the vertical bent pipe portion of the two sets up with horizontal pipe portion side by side, third shunt tubes structure and fourth shunt tubes structure are located the right side of square shunt tubes, and the vertical bent pipe portion of the two sets up with horizontal pipe portion side by side.

Further, the horizontal elbow part is of a 45-degree elbow structure.

Further, the horizontal bent pipe part of first shunt tube structure and fourth shunt tube structure is crooked towards the rear side, and the horizontal bent pipe part of second shunt tube structure and third shunt tube structure is crooked towards the front side.

The above technical scheme of the utility model following beneficial effect has: the utility model discloses a set up the shunt tubes into square structure, can make during waste gas non-resistance and even entering into every vertical reposition of redundant personnel chamber, and subsequent first shunt tube structure, the second shunt tube structure, the waste gas of third shunt tube structure and fourth shunt tube structure is the square structure unanimous with the cross section in vertical reposition of redundant personnel chamber through the cross-section, through setting up even pipeline structure, can be so that waste gas is at the in-process of reposition of redundant personnel transport, can hardly realize direct striking with the pipe wall, but can realize reposition of redundant personnel and turn to under the guide of pipeline, great reduction the speed loss of waste gas in reposition of redundant personnel and transportation process, do benefit to the filtration of follow-up sack cleaner.

Drawings

FIG. 1 is a schematic diagram of a piping structure of a bag-type dust collector in the prior art;

FIG. 2 is an exploded view of FIG. 1;

fig. 3 is a schematic perspective view of a first embodiment of the present invention;

fig. 4 is a schematic perspective view of a second embodiment of the present invention;

FIG. 5 is a front view of an embodiment of the present invention;

FIG. 6 isbase:Sub>A sectional view taken along line A-A of FIG. 5;

fig. 7 is an exploded view of an embodiment of the present invention;

fig. 8 is a usage status diagram of the embodiment of the present invention.

Detailed Description

The following describes embodiments of the present invention in further detail with reference to the drawings and examples. The following examples are provided to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

As shown in fig. 3-7, the dust removal pipeline airflow distributor according to this embodiment includes a square exhaust gas inlet pipe 1, a square flow dividing pipe 2 is detachably disposed at the bottom of the square exhaust gas inlet pipe 1, four vertical flow dividing chambers 3 are uniformly disposed in the square flow dividing pipe 2, the four vertical flow dividing chambers 3 can divide the exhaust gas flow entering from the square exhaust gas inlet pipe 1 equally, the four vertical flow dividing chambers 3 are respectively connected with a first flow dividing pipe structure 4, a second flow dividing pipe structure 5, a third flow dividing pipe structure 6 and a fourth flow dividing pipe structure 7, outlets of the first flow dividing pipe structure 4, the second flow dividing pipe structure 5, the third flow dividing pipe structure 6 and the fourth flow dividing pipe structure 7 are all disposed along a horizontal direction, and first shunt tube structure 4, second shunt tube structure 5, the waste gas of third shunt tube structure 6 and fourth shunt tube structure 7 passes through the cross-section and is the square structure unanimous with the cross section of vertical reposition of redundant personnel chamber 3, namely first shunt tube structure 4, second shunt tube structure 5, the waste gas of third shunt tube structure 6 and fourth shunt tube structure 7 passes through the cross section and the cross section size of vertical reposition of redundant personnel chamber 3, the shape is the same completely, through setting up even pipeline structure, can make waste gas at the in-process of reposition of redundant personnel transport, can hardly realize direct striking with the pipe wall, but can realize reposition of redundant personnel and turn to under the guide of pipeline, great reduction the speed loss of waste gas in reposition of redundant personnel and transportation process, do benefit to the filtration of follow-up sack cleaner.

The top of the square waste gas inlet pipe 1 is provided with a first flange plate 101.

The bottom of the square waste gas inlet pipe 1 is provided with a second flange plate 102, the top of the square shunt pipe 2 is provided with a third flange plate 201, and the third flange plate 201 is connected with the second flange plate 102 through a bolt assembly 8.

Be provided with cross baffle 9 in the square shunt tubes 2, cross baffle 9 separates the inner chamber of square shunt tubes 2 for four vertical shunt chambeies, and the outside of cross baffle 9 is fixed with the inner wall welded of square shunt tubes 2.

First shunt tubes structure 4, second shunt tubes structure 5, third shunt tubes structure 6 and fourth shunt tubes structure 7 all include the vertical bent pipe portion 1001, horizontal pipe portion 1002 and the horizontal bent pipe portion 1003 that connect gradually, and the tip of horizontal bent pipe portion 1003 is provided with third flange board 1004, and first shunt tubes structure 4, second shunt tubes structure 5, third shunt tubes structure 6 and fourth shunt tubes structure 7 are independent transfer passage, the transport work of four groups of waste gases of completion that can be independent.

First shunt tubes structure 4 and second shunt tubes structure 5 are located the left side of square shunt tubes 2, the vertical bent pipe portion 1001 and the horizontal pipe portion 1002 of the two set up side by side, third shunt tubes structure 6 and fourth shunt tubes structure 7 are located the right side of square shunt tubes 2, the vertical bent pipe portion 1001 and the horizontal pipe portion 1002 of the two set up side by side, first shunt tubes structure 4, second shunt tubes structure 5, third shunt tubes structure 6 and fourth shunt tubes structure 7 can adopt the steel sheet welding to form, through this kind of structural arrangement, can make overall structure compacter.

Horizontal elbow portion 1003 is 45 elbow structures, and first shunt tubes structure 4 is crooked towards the rear side with the horizontal elbow portion 1003 of fourth shunt tubes structure 7, and second shunt tubes structure 5 is crooked towards the front side with the horizontal elbow portion 1003 of third shunt tubes structure 6, can more do benefit to the even transport of waste gas like this.

The utility model discloses an installation status is as shown in fig. 8, 11 is the confined looped pipeline in the picture, the even a plurality of sack cleaner connecting pipes 12 of having arranged around the looped pipeline 11, the inboard of looped pipeline 11 through four connecting pipes 13 respectively with first shunt tubes structure 4, second shunt tubes structure 5, third shunt tubes structure 6 and fourth shunt tubes structure 7 communicate, wherein connecting pipe 13 can adopt the square pipe of sky circle, in order to realize better connection effect, in work, square waste gas advances pipe 1 and communicates through the square pipe of sky circle with total waste gas pipeline, waste gas enters into square waste gas advances pipe 1, after that by even distribution in four vertical shunt chambers 3, after that waste gas in four vertical shunt chambers 3 is respectively through first shunt tubes structure 4, second shunt tubes structure 5, third shunt tubes structure 6 and fourth shunt tubes structure 7 enter into 13, after even connecting pipe enters into looped pipeline 11, and after even being full of waste gas in the looped pipeline 11, alright get into in order to make in the even sack cleaner that gets into of waste gas, in order to guarantee all the maintenance statuses of equal work sack cleaner, do benefit to concentrate in the management state.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. A dust removal pipeline airflow distributor characterized by: including square waste gas inlet pipe, square waste gas inlet pipe's bottom detachable is provided with square shunt tubes, square shunt tubes is intraductal even is provided with four vertical reposition of redundant personnel chambeies, four vertical reposition of redundant personnel chambeies are connected with first shunt tubes structure respectively, the second shunt tubes structure, third shunt tubes structure and fourth shunt tubes structure, first shunt tubes structure, the second shunt tubes structure, the export of third shunt tubes structure and fourth shunt tubes structure all sets up along the horizontal direction, and first shunt tubes structure, the second shunt tubes structure, the waste gas of third shunt tubes structure and fourth shunt tubes structure is the square structure unanimous with vertical shunt tubes's cross section through the cross-section.

2. A dust extraction duct air flow distributor as claimed in claim 1 wherein: the top of square waste gas inlet pipe is provided with first flange board.

3. A dust extraction duct air flow distributor as claimed in claim 1 wherein: the bottom that square waste gas advances the pipe is provided with the second flange board, and the top of square shunt tubes is provided with the third flange board, the third flange board pass through bolt assembly with the second flange board is connected.

4. A dust extraction duct air flow distributor as claimed in claim 1 wherein: the square flow dividing pipe is internally provided with a cross clapboard which divides the inner cavity of the square flow dividing pipe into four vertical flow dividing cavities.

5. A dust extraction duct air flow distributor as claimed in claim 1 wherein: first shunt tubes structure, second shunt tubes structure, third shunt tubes structure and fourth shunt tubes structure all include vertical bent pipe portion, horizontal pipe portion and the horizontal bent pipe portion that connects gradually, the tip of horizontal bent pipe portion is provided with the third flange board.

6. The dust extraction duct air flow distributor of claim 5, wherein: first shunt tubes structure and second shunt tubes structure are located the left side of square shunt tubes, and the vertical bent pipe portion of the two sets up side by side with horizontal pipe portion, third shunt tubes structure and fourth shunt tubes structure are located the right side of square shunt tubes, and the vertical bent pipe portion of the two sets up side by side with horizontal pipe portion.

7. A dust extraction duct air flow distributor as claimed in claim 5 wherein: the horizontal bent pipe part is of a 45-degree bent pipe structure.

8. The dust extraction duct airflow distributor of claim 1, wherein: the horizontal bent pipe part of first shunt tubes structure and fourth shunt tubes structure is crooked towards the rear side, and the horizontal bent pipe part of second shunt tubes structure and third shunt tubes structure is crooked towards the front side.